Registers – Coded record sensors – Particular sensor structure
Reexamination Certificate
1998-05-13
2003-05-27
Frech, Karl D. (Department: 2876)
Registers
Coded record sensors
Particular sensor structure
C235S462490
Reexamination Certificate
active
06568598
ABSTRACT:
BACKGROUND OF THE INVENTION
The field of the present invention relates to optical scanning systems and particularly to a scanning system capable of successfully reading objects aligned in a variety of orientations. The invention is especially suitable for use as a fixed scanner such as that employed at a supermarket checkout counter reading bar codes such as those found on consumer products.
For effective and accurate performance, a bar code scanner depends upon focused optics and scanning geometry. Fixed scanners frequently employ a rotating polygon mirror which directs a scanning beam toward a mirror array for generating a desired scan pattern. One type of fixed bar code scanner positions a scan engine in a base with a scan window oriented in a horizontal plane. One such scanning system is disclosed in U.S. Pat. No. 5,073,702 in which a scanning beam is reflected off a mirror array which has a plurality of mirrors arranged in a generally semicircular pattern. The scanning beam reflecting off each of the mirrors has vertically upward component thereby passing through the window/aperture. Objects to be scanned are passed over the window with the bar codes oriented in a generally downward direction.
In another scanner orientation, the scan engine is housed in a vertical tower with the scan window oriented in a vertical plane. In such a vertical scanner, generally all the outgoing scan beams come out sidewards also have an upward vertical component. Objects to be scanned are passed in front of the window with the bar codes oriented in a generally sideward direction.
In order to produce a successful scan, an object must be oriented with its bar code passed in front of the scan window at an angle which is not so oblique as to prevent a scan line from striking or “seeing” the bar code. Therefore to achieve a successful scan, the user must position the object with the bar code placed sufficiently close to the desired orientation. The range of suitable plane orientation of the object bearing the bar code is limited by the size of the window and the angle over which the mirror array can direct a scan pattern. Present vertical scanners can scan bar codes oriented on certain lateral sides (i.e. side facing) which face the vertical window, but experience difficulties in scanning faces oriented in a horizontal plane (i.e., facing up or down) or lateral sides opposite the window. Horizontal scanners (i.e. upward facing) are fairly adept at scanning the bottom side but are frequently limited as to which lateral sides may be scanned. The present inventors have recognized that it would be desirable to increase the range of plane orientation readable by a scanning which would minimize required bar code label orientation, support belt to belt (automatic) scanning, and otherwise provide for improved scanning ergonomics.
SUMMARY OF THE INVENTION
The present invention relates to an optical system and method for data reading. A first preferred system is directed to a scanner which includes means for generating a first optical beam and a second optical beam, the first optical beam being directed toward one side of a first scanning optical element such as a rotating polygon mirror and to a first mirror array, the second optical beam being directed toward a second scanning optical element such as another side of the rotating polygon mirror and then to a second mirror array. The first mirror array is configured to generate a scan pattern having an apparent source from one orthogonal direction and the second mirror array is configured to generate a scan pattern having an apparent source from another orthogonal direction. A second preferred system is directed to a scanner having a housing with a generally vertical window in an upper housing section and a generally horizontal window in a lower housing section. The scanner includes a light source generating a light beam and a beam splitter dividing the light beam into a first optical beam and a second optical beam. The first optical beam is directed toward one side of a scanning optical element, then to a first mirror is array located in the upper housing section adjacent the vertical window, and then out the vertical window. The second optical beam is directed toward another side of the scanning optical element with a first portion of the second optical beam being directed to a second mirror array located in a first side of the lower housing section adjacent the upper housing portion and then through the horizontal window and with a second portion of the second optical beam being directed to a third mirror array located in a second side of the lower housing opposite the first side thereof. In a preferred embodiment, return signals detected from both the first and second optical beams are processed by a single microprocessor to allow for unified signal processing.
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Acosta Jorge Luis
Bobba Mohan LeeLaRama
Eusterman Timothy Joseph
McQueen Alexander
Ring James W.
Frech Karl D.
PSC Scanning Inc.
Stoel Rives LLP
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